Does Passing STL Containers Make A Copy?

Question

I can't remember whether passing an STL container makes a copy of the container, or just another alias. If I have a couple containers:

std::unordered_map<int,std::string> _hashStuff;
std::vector<char> _characterStuff;

And I want to pass those variables to a function, can I make the function as so:

void SomeClass::someFunction(std::vector<char> characterStuff);

Or would this make a copy of the unordered_map / vector? I'm thinking I might need to use shared_ptr.

void SomeClass::someFunction(std::shared_ptr<std::vector<char>> characterStuff);

Answer 1

It depends. If you are passing an lvalue in input to your function (in practice, if you are passing something that has a name, to which the address-of operator & can be applied) then the copy constructor of your class will be invoked.

void foo(vector<char> v)
{
    ...
}

int bar()
{
    vector<char> myChars = { 'a', 'b', 'c' };
    foo(myChars); // myChars gets COPIED
}

If you are passing an rvalue (roughly, something that doesn't have a name and to which the address-of operator & cannot be applied) and the class has a move constructor, then the object will be moved (which is not, beware, the same as creating an "alias", but rather transferring the guts of the object into a new skeleton, making the previous skeleton useless).

In the invocation of foo() below, the result of make_vector() is an rvalue. Therefore, the object it returns is being moved when given in input to foo() (i.e. vector's move constructor will be invoked):

void foo(vector<char> v);
{
    ...
}

vector<char> make_vector() 
{ 
    ...
};

int bar()
{
    foo(make_vector()); // myChars gets MOVED
}

Some STL classes have a move constructor but do not have a copy constructor, because they inherently are meant to be non-copiable (for instance, unique_ptr). You won't get a copy of a unique_ptr when you pass it to a function.

Even for those classes that do have a copy constructor, you can still force move semantics by using the std::move function to change your argument from an lvalue into an rvalue, but again that doesn't create an alias, it just transfers the ownership of the object to the function you are invoking. This means that you won't be able to do anything else with the original object other than reassigning to it another value or having it destroyed.

For instance:

void foo(vector<char> v)
{
    ...
}

vector<char> make_vector() 
{ 
    ...
};

int bar()
{
    vector<char> myChars = { 'a', 'b', 'c' };
    foo(move(myChars)); // myChars gets MOVED
    cout << myChars.size(); // ERROR! object myChars has been moved
    myChars = make_vector(); // OK, you can assign another vector to myChars
}

If you find this whole subject of lvalue and rvalue references and move semantics obscure, that's very understandable. I personally found this tutorial quite helpful:

http://thbecker.net/articles/rvalue_references/section_01.html

You should be able to find some info also on http://www.isocpp.org or on YouTube (look for seminars by Scott Meyers).

Answer 2

Yes, it'll copy the vector because you're passing by value. Passing by value always makes a copy or move (which may be elided under certain conditions, but not in your case). If you want to refer to the same vector inside the function as outside, you can just pass it by reference instead. Change your function to:

void SomeClass::someFunction(std::vector<char>& characterStuff);

The type std::vector<char>& is a reference type, "reference to std::vector<char>". The name characterStuff will act as an alias for the object referred to by _characterStuff.

Answer 3

C++ is based on values: When passing object by value you get independent copies. If you don't want to get a copy, you can use a reference or a const reference, instead:

void SomeClass::someFunction(std::vector<char>& changable) { ... }
void SomeClass::otherFunction(std::vector<char> const& immutable) { ... }

When the called function shouldn't be able to change the argument but you don't want to create a copy of the object, you'd want to pass by const&. Normally, I wouldn't use something like a std::shared_ptr<T> instead. There are uses of this type by certainly not to prevent copying when calling a function.